Filtered by vendor Openssl
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Total
14 CVE
| CVE | Vendors | Products | Updated | CVSS v2 | CVSS v3 |
|---|---|---|---|---|---|
| CVE-2003-0545 | 1 Openssl | 1 Openssl | 2024-02-02 | 10.0 HIGH | 9.8 CRITICAL |
| Double free vulnerability in OpenSSL 0.9.7 allows remote attackers to cause a denial of service (crash) and possibly execute arbitrary code via an SSL client certificate with a certain invalid ASN.1 encoding. | |||||
| CVE-2022-1292 | 5 Debian, Fedoraproject, Netapp and 2 more | 51 Debian Linux, Fedora, A250 and 48 more | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| The c_rehash script does not properly sanitise shell metacharacters to prevent command injection. This script is distributed by some operating systems in a manner where it is automatically executed. On such operating systems, an attacker could execute arbitrary commands with the privileges of the script. Use of the c_rehash script is considered obsolete and should be replaced by the OpenSSL rehash command line tool. Fixed in OpenSSL 3.0.3 (Affected 3.0.0,3.0.1,3.0.2). Fixed in OpenSSL 1.1.1o (Affected 1.1.1-1.1.1n). Fixed in OpenSSL 1.0.2ze (Affected 1.0.2-1.0.2zd). | |||||
| CVE-2022-2274 | 2 Netapp, Openssl | 12 H300s, H300s Firmware, H410c and 9 more | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| The OpenSSL 3.0.4 release introduced a serious bug in the RSA implementation for X86_64 CPUs supporting the AVX512IFMA instructions. This issue makes the RSA implementation with 2048 bit private keys incorrect on such machines and memory corruption will happen during the computation. As a consequence of the memory corruption an attacker may be able to trigger a remote code execution on the machine performing the computation. SSL/TLS servers or other servers using 2048 bit RSA private keys running on machines supporting AVX512IFMA instructions of the X86_64 architecture are affected by this issue. | |||||
| CVE-2022-2068 | 6 Broadcom, Debian, Fedoraproject and 3 more | 43 Sannav, Debian Linux, Fedora and 40 more | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| In addition to the c_rehash shell command injection identified in CVE-2022-1292, further circumstances where the c_rehash script does not properly sanitise shell metacharacters to prevent command injection were found by code review. When the CVE-2022-1292 was fixed it was not discovered that there are other places in the script where the file names of certificates being hashed were possibly passed to a command executed through the shell. This script is distributed by some operating systems in a manner where it is automatically executed. On such operating systems, an attacker could execute arbitrary commands with the privileges of the script. Use of the c_rehash script is considered obsolete and should be replaced by the OpenSSL rehash command line tool. Fixed in OpenSSL 3.0.4 (Affected 3.0.0,3.0.1,3.0.2,3.0.3). Fixed in OpenSSL 1.1.1p (Affected 1.1.1-1.1.1o). Fixed in OpenSSL 1.0.2zf (Affected 1.0.2-1.0.2ze). | |||||
| CVE-2021-3711 | 5 Debian, Netapp, Openssl and 2 more | 31 Debian Linux, Active Iq Unified Manager, Clustered Data Ontap and 28 more | 2023-12-10 | 7.5 HIGH | 9.8 CRITICAL |
| In order to decrypt SM2 encrypted data an application is expected to call the API function EVP_PKEY_decrypt(). Typically an application will call this function twice. The first time, on entry, the "out" parameter can be NULL and, on exit, the "outlen" parameter is populated with the buffer size required to hold the decrypted plaintext. The application can then allocate a sufficiently sized buffer and call EVP_PKEY_decrypt() again, but this time passing a non-NULL value for the "out" parameter. A bug in the implementation of the SM2 decryption code means that the calculation of the buffer size required to hold the plaintext returned by the first call to EVP_PKEY_decrypt() can be smaller than the actual size required by the second call. This can lead to a buffer overflow when EVP_PKEY_decrypt() is called by the application a second time with a buffer that is too small. A malicious attacker who is able present SM2 content for decryption to an application could cause attacker chosen data to overflow the buffer by up to a maximum of 62 bytes altering the contents of other data held after the buffer, possibly changing application behaviour or causing the application to crash. The location of the buffer is application dependent but is typically heap allocated. Fixed in OpenSSL 1.1.1l (Affected 1.1.1-1.1.1k). | |||||
| CVE-2020-7043 | 4 Fedoraproject, Openfortivpn Project, Openssl and 1 more | 5 Fedora, Openfortivpn, Openssl and 2 more | 2023-12-10 | 6.4 MEDIUM | 9.1 CRITICAL |
| An issue was discovered in openfortivpn 1.11.0 when used with OpenSSL before 1.0.2. tunnel.c mishandles certificate validation because hostname comparisons do not consider '\0' characters, as demonstrated by a good.example.com\x00evil.example.com attack. | |||||
| CVE-2016-0799 | 2 Openssl, Pulsesecure | 3 Openssl, Client, Steel Belted Radius | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| The fmtstr function in crypto/bio/b_print.c in OpenSSL 1.0.1 before 1.0.1s and 1.0.2 before 1.0.2g improperly calculates string lengths, which allows remote attackers to cause a denial of service (overflow and out-of-bounds read) or possibly have unspecified other impact via a long string, as demonstrated by a large amount of ASN.1 data, a different vulnerability than CVE-2016-2842. | |||||
| CVE-2016-0705 | 5 Canonical, Debian, Google and 2 more | 5 Ubuntu Linux, Debian Linux, Android and 2 more | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| Double free vulnerability in the dsa_priv_decode function in crypto/dsa/dsa_ameth.c in OpenSSL 1.0.1 before 1.0.1s and 1.0.2 before 1.0.2g allows remote attackers to cause a denial of service (memory corruption) or possibly have unspecified other impact via a malformed DSA private key. | |||||
| CVE-2016-6303 | 2 Nodejs, Openssl | 2 Node.js, Openssl | 2023-12-10 | 7.5 HIGH | 9.8 CRITICAL |
| Integer overflow in the MDC2_Update function in crypto/mdc2/mdc2dgst.c in OpenSSL before 1.1.0 allows remote attackers to cause a denial of service (out-of-bounds write and application crash) or possibly have unspecified other impact via unknown vectors. | |||||
| CVE-2016-2108 | 3 Google, Openssl, Redhat | 9 Android, Openssl, Enterprise Linux Desktop and 6 more | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| The ASN.1 implementation in OpenSSL before 1.0.1o and 1.0.2 before 1.0.2c allows remote attackers to execute arbitrary code or cause a denial of service (buffer underflow and memory corruption) via an ANY field in crafted serialized data, aka the "negative zero" issue. | |||||
| CVE-2016-2842 | 1 Openssl | 1 Openssl | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| The doapr_outch function in crypto/bio/b_print.c in OpenSSL 1.0.1 before 1.0.1s and 1.0.2 before 1.0.2g does not verify that a certain memory allocation succeeds, which allows remote attackers to cause a denial of service (out-of-bounds write or memory consumption) or possibly have unspecified other impact via a long string, as demonstrated by a large amount of ASN.1 data, a different vulnerability than CVE-2016-0799. | |||||
| CVE-2016-2182 | 3 Hp, Openssl, Oracle | 6 Icewall Federation Agent, Icewall Mcrp, Icewall Sso and 3 more | 2023-12-10 | 7.5 HIGH | 9.8 CRITICAL |
| The BN_bn2dec function in crypto/bn/bn_print.c in OpenSSL before 1.1.0 does not properly validate division results, which allows remote attackers to cause a denial of service (out-of-bounds write and application crash) or possibly have unspecified other impact via unknown vectors. | |||||
| CVE-2016-2177 | 3 Hp, Openssl, Oracle | 6 Icewall Mcrp, Icewall Sso, Icewall Sso Agent Option and 3 more | 2023-12-10 | 7.5 HIGH | 9.8 CRITICAL |
| OpenSSL through 1.0.2h incorrectly uses pointer arithmetic for heap-buffer boundary checks, which might allow remote attackers to cause a denial of service (integer overflow and application crash) or possibly have unspecified other impact by leveraging unexpected malloc behavior, related to s3_srvr.c, ssl_sess.c, and t1_lib.c. | |||||
| CVE-2016-6309 | 1 Openssl | 1 Openssl | 2023-12-10 | 10.0 HIGH | 9.8 CRITICAL |
| statem/statem.c in OpenSSL 1.1.0a does not consider memory-block movement after a realloc call, which allows remote attackers to cause a denial of service (use-after-free) or possibly execute arbitrary code via a crafted TLS session. | |||||